Sebastian M. Walter scite author profile

I⋅⋅⋅Br‐idging: Benzhydryl bromide can be activated by novel halogen‐bond donors and subsequently undergoes a Ritter‐like reaction with acetonitrile (see scheme). Comparative experiments with non‐iodinated reference compounds and tests with added acids indicate that halogen bonds are very likely the basis for this effect. The activation seems to be applicable to other substrates as well.

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Organocatalysis by Neutral Multidentate Halogen‐Bond Donors

Kniep

et al. 2013

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I(n)organocatalysis: Neutral multidentate halogen‐bond donors (halogen‐based Lewis acids) catalyze the reaction of 1‐chloroisochroman with ketene silyl acetals. The organocatalytic activity is linked to the presence (and number as well as orientation) of iodine substituents. As hidden acid catalysis can be ruled out with high probability, this case constitutes strong evidence for halogen‐bond based organocatalysis. TBS=tert‐butyldimethylsilyl.

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Activation of a carbonyl compound by halogen bonding

Jungbauer¹,

Walter²,

Schindler³

et al. 2014

Chem. Commun.

204

147

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Isothermal Calorimetric Titrations on Charge-Assisted Halogen Bonds: Role of Entropy, Counterions, Solvent, and Temperature

et al. 2012

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We have conducted isothermal calorimetric titrations to investigate the halogen-bond strength of cationic bidentate halogen-bond donors toward halides, using bis(iodoimidazolium) compounds as probes. These data are intended to aid the rational design of halogen-bond donors as well as the development of halogen-bond-based applications in solution. In all cases examined, the entropic contribution to the overall free energy of binding was found to be very important. The binding affinities showed little dependency on the weakly coordinating counteranions of the halogen-bond donors but became slightly stronger with higher temperatures. We also found a marked influence of different solvents on the interaction strength. The highest binding constant detected in this study was 3.3 × 10(6) M(-1).

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5-Iodo-1,2,3-triazolium-based multidentate halogen-bond donors as activating reagents

et al. 2012

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